Electrostatic precipitator apparatus



March 26, 1946. M. NEWMAN 9 ELECTROSTATIC PRECIPfTATbR APPARATUS Original Filed Oct. so, 1945 /IVVEN7"OE Moe/e15 NEWMAN Patented Mar. 26, 1946 ELECTROSTATIC PRECIPITATOR APPARATUS Morris Newman, Minneapolis, Minn.

Original application October 30, 1943, Serial No. 508,336. Divided and this application August 10, 1944, Serial No. 548,901

3 Claims.

This invention relates to a dust and smoke precipitating apparatus which is especially suitable for use in portable installations, such as for purifying the contaminated air resulting from grinding or welding operations. In many delicate machine operations, the small particles of abrasive thrown off by grinding wheels are sufficiently contaminating to cause madadjustment or excessive wear of the finishedproducts and the machines used in making them. Likewise in welding operations, particularly in closed quarters, the smoke and fumes caused by the welding operations are hazardous to the operator and sometimes constitute a serious impairment with respect to the products produced.

It is an object of the present invention to provide a precipitator apparatus of improved design and more particularly a portable apparatus suitable for installation adjacent to machine tools or in enclosed quarters for the cleaning of air therein.

Other and further objects of the invention are those inherent in the apparatus herein illustrated, described and claimed.

The invention is illustrated in the drawing which is a side elevational view in section of the precipitator apparatus taken at the center line of the apparatus.

Referring to the drawing the precipitator apparatus comprises a base generally designated 29, having a sub-frame 2| provided with feet 22. Upon the sub-frame there is mounted a cylindrical shell 23, having a curved bottom as shown at 24-24. The cylindrical shell extends upwardly and contains concentric cylindrical plates 25 and 26, which are maintained in spaced concentric relationship by plurality of insulators 21. The outer cylindrical member 23 and the inner cylindrical member 26 are electrically connected together and are grounded to the frame 25 of the machine. Within the inner cylindrical member 23 and upon it there is suspended a sleeve 29 of substantial construction, having a removable cap 30 provided with a reduced conduit receiving end 3!.

Within cylinder 29 and immediate the cap 38, there is a wire screen or cloth pre-filter 33 of any suitable design for collecting and holding particles of large size. Beneath the filter 33, and within the sleeve 29 there is mounted a motor 35 held on brackets 33, attached to the interior of the cylinder 23. The motor is provided with an extending shaft 38 upon which there is mounted a first stage blower 39 and a second positioned curved cowlings 42, 43 and an interior separating plate 44 which is supported on a fixed radial blading 45. When the motor 35 is rotated, the blower elements 39 and 43 pull air through the cap and through the filter 33 in series and thence into the center of the blower element 39, and following the path of the arrows illustrated, over and around the fixed bailie 44 and thence through the blower 4B, whereupon the air is discharged around the motor and forced downwardly into a gradually restricting bell-shaped cowling 46 and thence through the straight tubular section 48.

The member 46-48 is preferably of sheet metal and is supported upon an insulating sleeve 50 so that the entire member 43-48 may be charged at a suitably high voltage. Axially arranged within the tubular portion 48 there is positioned an ionizing wire 52 supported at its upper end to the motor 35 and at its lower end by a slightly heavier wire 53. Wire 53 is in turn supported by the lower end of the outer tubular member 23.

It will thus be observed that the motor-driven blower causes the air to be drawn through the pre-filter 33 and thence forced through an ionizing zone composed of wire 52 and. electrically charged tubular section 48, whereupon the air is discharged and forced up through an annular space between cylinders 23 and insulator 5B and thence through the annular precipitating plates The air is discharged through the upper annular space at the top of the apparatus between the concentrical cylinders 232526.

Upon the base 20 there is also mounted an outer cover 25 in which there is positioned a power pack 53 which may be any of the types shown in Figures 2, 3, 4 and 5 of my copending application Ser. No. 508,336, filed October 30, 1943, entitled Electrostatic precipitator systems, and may, if desired, include either of the regulating circuits described in said application with referenc to Figures 8 and 9. Electrical connection from a low power alternatingpurrent source is made to terminals L1 and L2, and from the power source there extends a common conductor L38 which is electrically connected to the outer cylindrical member 23, and hence also to the inner cylindrical member 23. From the power pack there also extends a high voltage direct current line L36 which passes through bushing 59 and is connected to the cylindrical plate 25, and an ionizing wire connection L43 which, as previously described, is charged with high voltage direct current, preferably having an alternating curstage blower 40. Around the blowers there are 55 rent component, the wire L43 being connected to the lower curved surface 60 Df the member 46 48.

In use, a fixed or flexible conduit BI is connected to the cap 30 at the nipple 3|, and is extended to the machine in which the contaminated air is produced, at which place thereis preferably provided an enlarged cowling 62 shaped so as to collect the contaminated air most advantageously. Thus, where the apparatus is used'in' connection with welding operations, schematically illustrated at 63, the cowling 62 is shaped so as to col-'- lect the fumes and smoke arising: from'the'weldiing work, or where the electrostatic precipitating:

apparatus is used in connection with a grinder, the cowling 62 is shaped so as to colI'ect'mosta-d' arranged precipitator plates around the periphvantageously the abrasive. contaminated air the immediate region of the grinding operation.;

The contaminated air is accordingly drawn into the cowling 62, thence through conduit 6i and into the cap 30, whereupon it is drawn through the pre-filter 33 which removes. any; particlesvof substantial size. The. motor driven. blower then forces: the air through the ionizing zone composed of' wire 52 and tubular plate: 48; wherethe contaminating particles in the air are ionized,

whereupon the air is? forced; upwardly between the electrically charged precipitating .plates23- 25-435; where the. ionized dust; particles: are precipitated, held;

The. present application is a division of my application Sex; Nd. 508336,. entitl'ed Electrostatic precipitator system, filedootober-BO, 1943'.

Other and further modifications: will; ice-apparentto.- thoseisk-illed. in the. art without; departing from the spiritiof the'invention illustrated, de-

scribed: and' claimed;

What, I claim is:

I; A self-contained electrostatic: precipitator comprising a circular base; a tube mounted in a vertical position centrally on said baseand-having an. air'entrance nipple at: its. upper end.- for receiving. an conduit, electricallydriven blower means: mounted in said: tube for drawing through saiciairentrance nippleand driving the air downwardly through: said tube; an ionizing zone including. an electrically conductive ionizing zone cylinder and-an: ionizing wire arranged axially thereinmounted-below saidblower means in said-tube -f-or: causing ionization of air passing there through,an air deflector in said base for directing air passing through saidtube up'wardly' therearound; a plural'ity of electrically cry of. said tubular housing,'said blower being.

connected to' move air downwardly thru the housingand. thence; upwardly around its periphe-rse'to the precipitator plates for blowing .air therethroug-h, an. ionizing surface arranged h dlof the precipitator so that the air moved b said blower traverses the ionizing surface before. goingthrough ther precipitating plates. and

an electrical"power-paclemountedxin the base energizable from. a, relatively low voltage. source for charging the ionizing surface and; precipitator plates. at highiYVOItagGL 3. article: of manufacture. comprising, a frame, a cylindrical housing, an; electricemotor drivenv blower-having inlet and: outlet,v positioned-in. said. CYIiDLQIiEflILIIOlISiRQfG-Li movingzair therethru:, a dust? strainer between: the blower inlet and onev nd. of the. cylindricalhousing; a cover on that end" of. the housinghaving. an air conduitzconnection. thereon, electrostatic precipittator plates of cylindrical form. andioit a; size so as to formant lectrostaticfprecipitatonplatelseee tion of concentric cylinders; withconcentricz air passage spaces therebetweennested in position around the: cylindrical: housing, the. largest: of said concentric cylinders overhanging beyond the dlofithe cylindricalihousingg an air: deflecting cover connected over the end of said largest cylinder. for directing air from the outlet or said blower back alongthe outsideofi: thecylindrical housing and thru said electrostatic precipitator plate: section, an; ionizing. lectrode; in.- saidair path between theblowen outlet and: the precipitator plate section, and? a. power pack mounted on the frame and connected to the ionizing electrode: and precipitator plates for convertinglow voltag electrical energy:- to high :voltage for elew tric'al'l y: charging thea electrode and plates MQR'RIS relation concentrically- 

